Lecture 20 Population Growth and Demography

Question 1

Population Ecology

Answer 1

Population ecology studies abundance and distribution of a populations over time

• Population parameters are
  influenced by both biotic and
  abiotic factors
• Can describe populations in
  terms of:
• Dispersion
• Size and Density
• Demographics

Question 2

Population

Answer 2

organisms of the
same species in a location

Question 3

Population Dispersion

Answer 3

describes the pattern of individuals in space

slide 6

Question 4

Population Size & Density

Answer 4

• Population size and density
  tell us about the stability of a
  population!
• Methods of estimation:
• Sample (Census) Plots
• Mark Recapture
• Population Genetics

Question 5

Population Density

Answer 5

describes the number of
individuals in a defined area

Question 6

Measuring Populations: Sample Plots

Answer 6

• Also known as ecological census or quadrats
• Count every individual in a randomly selected area (population density)
• Extrapolate to get total population size
• Most effective for evenly spaced or sedentary organisms

slide 8-10

Question 7

Measuring Populations: Mark Recapture

Answer 7

• Assumes marked and unmarked individuals have
  equal probability of sampling
• Assumes no birth, death, immigration, emigration
  during resampling
• Useful for mobile
  organisms but more
  challenging for
  hard to find species

slide 11-16

Question 8

Measuring Populations: DNA Approaches

Answer 8

Genetic Profiling
(DNAfingerprinting)
Individuals are identified by
unique DNA sequences

Population Genetics
* Genetic diversity is correlated with
population size
* Total population size can be misleading
because not everyone reproduces!
* Effective population size (number of
breeding individuals in a population)
can be calculated from DNA

slide 17-18

Question 9

Demography

Answer 9

• Demography is the study of populations and how they change over time
• Age & Sex structure provides insight into future population growth trends
• Life tables summarize survival and reproductive rates of individuals
• Survivorship curves represent age-specific mortality (proportion of a
  cohort alive at each age)

Question 10

Age & Sex Structure

Answer 10

• Age structure describes distribution
  of individuals at different ages in a
  population
• “Snapshot” of a population in time
• Gives insight into growth (or
  decline) of a population
• Can be used to predict how likely a
  population is to grow or shrink

slide 20-21

Question 11

Life Tables

Answer 11

• Life tables summarize mortality and survival in a population by age-group
• They are constructed by following a cohort (age group) through time or
  analysis of dead per age group over time from a random sample (time-specific
  life table)

This same concept is used in medicine

slide 22-23

Question 12

Survivorship Curves

Answer 12

slide 24-28

Question 13

Life History

Answer 13

• Life History describes traits that
  affect reproduction and survival
• Natural selection shapes life history
  because resources are limited
• Trade-offs between survival and
  reproduction over lifetime of parent
  (when and how often to reproduce)
• These tradeoffs determine fecundity
  (an organism’s reproductive capacity)
• Reproductive output
• Reproductive onset
• Reproductive frequency

slide 29-30

Question 14

Reproductive Onset

Answer 14

• Age at maturity / onset of
  reproduction
• Early reproduction lowers
  risk of dying without
  producing offspring
  (but at the expense of their
  growth and health)
• Later reproduction may
  produce more offspring that
  are more likely to survive
  (but at the risk of not
  surviving to reproduce at
  all!)
• Linked to lifespan: short-lived species often
  reproduce early
  long-lived species more likely to delay

slide 31

Question 15

Reproductive Frequency

Answer 15

• How many times an organism reproduces over its lifetime
• Reproduction is energetically costly!
• Frequency of reproduction reflects resource availability and cost to parents

slide 32

Question 16

Reproductive Output

Answer 16

• Number and size of offspring
• “Quantity versus Quality”
  Trade-offs between energy
  put into making more
  offspring vs parental
  investment
• Low chance of offspring
  survival? Make more
  offspring!
• Good chance of survival?
  Make less offspring! (but put
  some effort into helping
  them survive)

slide 33

Question 17

Reproductive Rate

Answer 17

• Age-specific reproductive rates vary across species as a result of
  natural selection
• r/K selection theory relates parental investment (quantity and quality
  of offspring) to the conflicting demands for time, energy, nutrients

slide 34

Question 18

Reproductive Rate: K-selected Species

Answer 18

• K-selected organisms invest more in few offspring so each
  has a high chance of survival
• Competitive species with stable
  populations of long-lived
  individuals
• Maintain high reproductive rate
  at high population densities
• Live near their carrying capacity
  in predictable environments
• Long time to maturity
• Large-bodied
• Long lifespan & long generation
  time
• High parental investment &
  offspring survival
• Poor colonizers!

Question 19

Reproductive Rate: r-selected Species

Answer 19

• r-selected organisms produce many offspring each
  with a low chance of survival
• High reproductive rates at low
  population densities (low
  competition)
• Common in unpredictable /
  unstable environments
• Rapid development
• Small-bodied
• Short lifespan & short
  generation time
• High fecundity with little
  parental investment & low
  survival
• Good colonizers!